This publication contains information that is protected by copyright. No part of it may be reproduced in any form or by any
means or used to make any transformation/adaptation without
the prior written permission from the copyright holders.
This publication is provided for informational purposes only. The
manufacturer makes no representations or warranties with respect to the contents or use of this manual and specifically disclaims any express or implied warranties of merchantability or
fitness for any particular purpose. The user will assume the entire
risk of the use or the results of the use of this document. Further,
the manufacturer reserves the right to revise this publication and
make changes to its contents at any time, without obligation to
notify any person or entity of such revisions or changes.
Windows® 98 SE, Windows® ME, Windows® 2000, Windows NT
4.0 and Windows® XP are registered trademarks of Microsoft
Corporation. Intel®, Pentium® 4 and Celeron® are registered
trademarks of Intel Corporation. Award is a registered trademark
of Award Software, Inc. Other trademarks and registered trademarks of products appearing in this manual are the properties of
their respective holders.
Caution
To avoid damage to the system:
• Use the correct AC input voltage range
To reduce the risk of electric shock:
• Unplug the power cord before removing the system chassis
cover for installation or servicing. After installation or ser vicing, cover the system chassis before plugging the power cord.
..
.
..
®
Battery:
• Danger of explosion if battery incorrectly replaced.
• Replace only with the same or equivalent type recommend
by the manufacturer.
• Dispose of used batteries according to the battery manufacturer’s
instructions.
Joystick or MIDI port:
• Do not use any joystick or MIDI device that requires more
than 10A current at 5V DC. There is a risk of fire for devices
that exceed this limit.
FCC and DOC Statement on Class B
This equipment has been tested and found to comply with the
limits for a Class B digital device, pursuant to Part 15 of the FCC
rules. These limits are designed to provide reasonable protection
against harmful interference when the equipment is operated in a
residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. However, there is no guarantee
that interference will not occur in a particular installation. If this
equipment does cause harmful interference to radio or television
reception, which can be determined by turning the equipment off
and on, the user is encouraged to try to correct the interference
by one or more of the following measures:
• Reorient or relocate the receiving antenna.
• Increase the separation between the equipment and the receiver.
• Connect the equipment into an outlet on a circuit different
from that to which the receiver is connected.
• Consult the dealer or an experienced radio TV technician for
help.
Notice:
1. The changes or modifications not expressly approved by the
party responsible for compliance could void the user's authority to operate the equipment.
2. Shielded interface cables must be used in order to comply
with the emission limits.
Notice
This user’s manual contains detailed information about the system
board. If, in some cases, some information doesn’t match those
shown in the multilingual manual, the multilingual manual should
always be regarded as the most updated version. The multilingual
manual is included in the system board package.
To view the user’s manual, inser t the CD into a CD-ROM drive.
The autorun screen (Main Board Utility CD) will appear. Click
the “TOOLS” icon then click “Manual” on the main menu.
Table of Contents
Chapter 1 - Introduction
1.1 Features and Specifications.................................................................................
AGP is an interface designed to support high performance 3D
graphics cards for 3D graphics applications. It handles large
amounts of graphics data with the following features:
• Pipelined memory read and write operations that hide
memory access latency.
• Demultiplexing of address and data on the bus for nearly
100 percent efficiency.
Note:
AGP 2x and 3.3V AGP cards are not supported.
Onboard Audio Features
• C-Media CMI9739a 6-channel codec
• 20-bit stereo full-duplex codec with independent variable
sampling rate
• High quality differential CD input
• True stereo line level outputs
• S/PDIF-in/out interface
• 6-channel audio output
8
Introduction
S/PDIF
S/PDIF is a standard audio file transfer format that transfers digital
audio signals to a device without having to be converted first to
an analog format. This prevents the quality of the audio signal
from degrading whenever it is converted to analog. S/PDIF is usually found on digital audio equipment such as a DAT machine or
audio processing device. The S/PDIF connector on the system
board sends surround sound and 3D audio signal outputs to amplifiers and speakers and to digital recording devices like CD recorders.
6-channel Audio
The center/bass and rear out jacks which supports four audio
output signals: center channel, subwoofer, rear right channel and
rear left channel; together with the line-out (2-channel) jack support 6-channel audio output.
Onboard Gigabit LAN PCI
• Realtek RTL8110S Gigabit LAN PCI controller
• Integrated power management functions
• Full duplex support at both 10, 100 and 1000 Mbps
• Supports IEEE 802.3u auto-negotiation
• Supports wire for management
1
Compatibility
• PCI 2.2 and AC ’97 compliant
• Intel AGP version 3.0
9
1
Introduction
SATA IDE/RAID Interface
• Silicon Image Sil3112A PCI to Serial ATA controller
• Supports two SATA (Serial ATA) interfaces which are compliant with SATA 1.0 specification (1.5Gbps interface)
• Supports RAID 0 and RAID 1
Serial ATA (SATA) is a storage interface that is compliant with
SATA 1.0 specification. With speed of up to 1.5Gbps, it improves
hard drive performance even in data intensive environments such
as audio/video, consumer electronics and entry-level servers.
PCI Bus Master IDE Controller
• Two PCI IDE interfaces support up to four IDE devices
• Supports ATA/33, ATA/66 and ATA/100 hard drives
• PIO Mode 4 Enhanced IDE (data transfer rate up to 14MB/
sec.)
• Bus mastering reduces CPU utilization during disk transfer
• Supports ATAPI CD-ROM, LS-120 and ZIP
IrDA Interface
The system board is equipped with an IrDA connector for wireless connectivity between your computer and peripheral devices.
The IRDA (Infrared Data Association) specification supports data
transfers of 115K baud at a distance of 1 meter.
10
USB Ports
The system board supports USB 2.0 and USB 1.1 ports. USB 1.1
supports 12Mb/second bandwidth while USB 2.0 supports
480Mb/second bandwidth providing a marked improvement in
device transfer speeds between your computer and a wide range
of simultaneously accessible external Plug and Play peripherals.
IEEE 1394 Interface
• VIA VT6306 PCI 1394 integrated host controller
• Supports three 100/200/400 Mb/sec ports
IEEE 1394 is fully compliant with the 1394 OHCI (Open Host
Controller Interface) 1.1 specification. It suppor ts up to 63 devices that can run simultaneously on a system. 1394 is a fast ex-
Introduction
ternal bus standard that supports data transfer rates of up to
400Mbps. In addition to its high speed, it also supports isochronous data transfer which is ideal for video devices that need
to transfer high levels of data in real-time. 1394 supports both
Plug-and-Play and hot plugging.
BIOS
• Award BIOS, Windows® 98SE/2000/ME/XP Plug and Play
compatible
• Genie BIOS provides:
-CPU/DRAM overclocking
-AGP/PCI/SATA overclocking
-CPU/DIMM/AGP overvoltage
• Supports SCSI sequential boot-up
• Flash EPROM for easy BIOS upgrades
• Supports DMI 2.0 function
• 4Mbit flash memory
Desktop Management Interface (DMI)
The system board comes with a DMI 2.0 built into the BIOS. The
DMI utility in the BIOS automatically records various information
about your system configuration and stores these information in
the DMI pool, which is a part of the system board's Plug and Play
BIOS. DMI, along with the appropriately networked software, is
designed to make inventory, maintenance and troubleshooting of
computer systems easier. Refer to chapter 4 for instructions on
using the DMI utility.
• 2 connectors for 4 additional external USB 2.0/1.1 por ts
• 2 connectors for 2 external IEEE 1394 por ts
• 1 front audio connector for external line-out and mic-in jacks
• 1 connector for an external game/MIDI port
• 2 internal audio connectors (CD-in and AUX-in)
• 1 S/PDIF connector for optical cable connection
• 1 connector for IrDA interface
• 4 Serial ATA connectors
• 2 IDE connectors
• 1 floppy connector
• 2 ATX power connectors (20-pin and 4-pin 12V)
• 1 Wake-On-LAN connector
• 1 opened chassis alarm connector
• CPU fan, chassis fan and 2nd fan connectors
1.1.2 System Health Monitor Functions
The system board is capable of monitoring the following “system
health” conditions.
• Monitors CPU/system temperature and overheat alarm
• Monitors CPU/1.5V/5VSB/VBAT/3.3V/5V/±12V voltages and
failure alarm
• Monitors the speed of the CPU, chassis and 2nd fans and failure alarm
• Automatic chassis fan and 2nd fan on/off control
• Read back capability that displays temperature, voltage and fan
speed
• Opened chassis alarm
12
Refer to the “PC Health Status” section in chapter 3 and the
“Hardware Monitor” section in chapter 4 for more information.
Introduction
1.1.3 Intelligence
Automatic Chassis/2nd Fan Off
The chassis fan and 2nd fan will automatically turn off once the
system enters the Suspend mode.
Dual Function Power Button
Depending on the setting in the “Soft-Off By PWR-BTTN” field of
the Power Management Setup, this switch will allow the system
to enter the Soft-Off or Suspend mode.
Wake-On-Ring
This feature allows the system that is in the Suspend mode or
Soft Power Off mode to wake-up/power-on to respond to calls
coming from an external modem or respond to calls from a
modem PCI card that uses the PCI PME (Power Management
Event) signal to remotely wake up the PC.
Important:
If you are using a modem add-in card, the 5VSB power source
of your power supply must support a minimum of ≥720mA.
1
Wake-On-LAN
This feature allows the network to remotely wake up a Soft
Power Down (Soft-Off) PC. It is supported via the onboard LAN
port, via a PCI LAN card that uses the PCI PME (Power Management Event) signal or via a LAN card that uses the Wake-OnLAN connector. However, if your system is in the Suspend mode,
you can power-on the system only through an IRQ or DMA
interrupt.
Important:
The 5VSB power source of your power supply must support
≥
720mA.
13
1
Introduction
Wake-On-PS/2 Keyboard/Wake-On-Mouse
This function allows you to use the PS/2 keyboard or PS/2
mouse to power-on the system.
Important:
The 5VSB power source of your power supply must support
≥
720mA.
Wake-On-USB Keyboard
This function allows you to use a USB keyboard to wake up a
system from the S3 (STR - Suspend To RAM) state.
Important:
• If you are using the Wake-On-USB Keyboard function for 2
USB ports, the 5VSB power source of your power supply
must support ≥1.5A.
• If you are using the Wake-On-USB Keyboard function for 3
or more USB ports, the 5VSB power source of your power
supply must support ≥2A.
RTC Timer to Power-on the System
14
The RTC installed on the system board allows your system to
automatically power-on on the set date and time.
ACPI
The system board is designed to meet the ACPI (Advanced Configuration and Power Interface) specification. ACPI has energy saving features that enables PCs to implement Power Management
and Plug-and-Play with operating systems that support OS Direct
Power Management. Currently, only Windows
supports the ACPI function. ACPI when enabled in the Power
Management Setup will allow you to use the Suspend to RAM
function.
With the Suspend to RAM function enabled, you can power-off
the system at once by pressing the power button or selecting
“Standby” when you shut down Windows
without having to go through the sometimes tiresome process of
closing files, applications and operating system. This is because the
®®
®
®®
98SE/2000/ME/XP
®®
®
®®
98SE/2000/ME/XP
Introduction
system is capable of storing all programs and data files during the
entire operating session into RAM (Random Access Memory)
when it powers-off. The operating session will resume exactly
where you left off the next time you power-on the system.
Important:
The 5VSB power source of your power supply must support
≥
1A.
AC Power Failure Recovery
When power returns after an AC power failure, you may choose
to either power-on the system manually, let the system power-on
automatically or return to the state where you left off before
power failure occurs.
Enabling the functionality of Hyper-Threading Technology for your
computer system requires ALL of the following platforms.
Components:
1
• CPU - an Intel® Pentium® 4 Processor with HT Technology
• Chipset - an Intel® chipset that supports HT Technology
• BIOS - a BIOS that supports HT Technology and has it enabled
• OS - an operating system that includes optimizations for HT
Technology
Please refer to Appendix A for information about enabling the
functionality of the Hyper-Threading Technology. For more information on Hyper-Threading Technology, go to: www.intel.com/
info/hyperthreading.
15
1
Introduction
1.3 Package Checklist
The system board package contains the following items:
;The system board
;A user’s manual
;Two Serial ATA data cables
;One IDE cables for ATA/33, ATA/66 or ATA/100 IDE drives
;One 34-pin floppy disk drive cable
;One I/O shield
;One “Mainboard Utility” CD
;One “Silicon Image Sil3112A RAID Drivers” diskette
One card-edge bracket mounted with a game/MIDI port
(optional)
If any of these items are missing or damaged, please contact your
dealer or sales representative for assistance.
16
Hardware Installation
Chapter 2 - Hardware Installation
2.1 System Board Layout
2
17
2
Hardware Installation
.
.
.
Warning:
.
.
.
.
.
Electrostatic discharge (ESD) can damage your system board, processor, disk drives, add-in boards, and other components. Perform the
upgrade instruction procedures described at an ESD workstation only.
If such a station is not available, you can provide some ESD protection
by wearing an antistatic wrist strap and attaching it to a metal part
of the system chassis. If a wrist strap is unavailable, establish and
maintain contact with the system chassis throughout any procedures
requiring ESD protection.
2.2 System Memory
DDR 1
DDR 2
DDR 3
DDR 4
18
The system board supports DDR SDRAM DIMM. Double Data
Rate SDRAM (DDR SDRAM) is a type of SDRAM that doubles
the data rate through reading and writing at both the rising and
falling edge of each clock. This effectively doubles the speed of
operation therefore doubling the speed of data transfer.
The four DDR DIMM sockets on the system board are divided into
2 channels:
Channel A - DDR 1 and DDR 2
Channel B - DDR 3 and DDR 4
Hardware Installation
The system board supports the following memory interface.
Single Channel (SC)
Data will be accessed in chunks of 64 bits (8B) from the
memory channels.
Virtual Single Channel (VSC)
If both channels are populated with different memory configurations, the MCH defaults to Virtual Single Channel.
Dual Channel (DC)
Dual channel provides better system performance because it
doubles the data transfer rate.
2
Single Channel
Virtual Single Channel
Dual Channel
BIOS Setting
Configure the system memory in the Advanced Chipset Features
submenu of the BIOS must be set accordingly.
DIMMs are on the same channel.
DIMMs in a channel can be identical or
completely different.
Not all slots need to be populated.
DIMMs of different memory configurations are on different channels.
Odd number of slots can be populated.
DIMMs of the same memory configuration are on different channels.
19
2
Hardware Installation
The table below lists the various optimal operating modes that
should be configured for the memory channel operation.
Config
No memory
Single channel A
Single channel A
Single channel A
Single channel B
Single channel B
Single channel B
Virtual single channel
Virtual single channel
Virtual single channel
Virtual single channel
Virtual single channel
Virtual single channel
Virtual single channel
Virtual single channel
Virtual single channel
Dual channel
Dual channel
Dual channel
DDR 1
E
P
P
E
E
E
E
E
E
E
P
P(**)
p(**)
P
P(**)
P(**)
E
P(*)(1,3)
P(*)(1,3)
DDR 2
E
E
P
P
E
E
E
P(**)
P
P(**)
E
E
E
P(**)
P
P(**)
P(*)(2,4)
E
P(*)(2,4)
DDR 3
E
E
E
E
P
P
E
E
P
P
E
P(**)
P(**)
E
P(**)
P(**)
E
P(*)(1,3)
P(*)(1,3)
DDR 4
E
E
E
E
E
P
P
P(**)
E
P(**)
P
E
P
P(**)
E
P(**)
P(*)(2,4)
E
P(*)(2,4)
20
P - denotes populated
E - denotes empty
* - denotes DIMMs are identical
** - denotes DIMMs are not identical
Hardware Installation
2.2.1 Installing the DIM Module
A DIM module simply snaps into a DIMM socket on the system
board. Pin 1 of the DIM module must correspond with Pin 1 of
the socket.
Notch
Key
2
Tab
Pin 1
1. Pull the “tabs” which are at the ends of the socket to the
side.
2. Position the DIMM above the socket with the “notch” in the
module aligned with the “key” on the socket.
3. Seat the module vertically into the socket. Make sure it is
completely seated. The tabs will hold the DIMM in place.
Tab
21
2
Hardware Installation
2.3 CPU
2.3.1 Overview
The system board is equipped with a surface mount 478-pin CPU
socket. This socket is exclusively designed for installing an Intel
processor.
2.3.2 Installing the CPU
1. Locate Socket 478 on the system board.
2. Unlock the socket by pushing the lever sideways, away from the
socket, then lifting it up to a 90o angle. Make sure the socket is
lifted to at least this angle otherwise the CPU will not fit in
properly.
22
Lever
Hardware Installation
3. Position the CPU above the socket then align the gold mark
on the corner of the CPU (designated as pin 1) with pin 1 of
the socket.
Important:
Handle the CPU by its edges and avoid touching the pins.
Gold mark
Pin 1
4. Insert the CPU into the socket until it is seated in place. The
CPU will fit in only one orientation and can easily be inserted
without exerting any force.
Important:
Do not force the CPU into the socket. Forcing the CPU into
the socket may bend the pins and damage the CPU.
2
23
2
Hardware Installation
5. Once the CPU is in place, push down the lever to lock the
socket. The lever should click on the side tab to indicate that
the CPU is completely secured in the socket.
2.3.3 Installing the Fan and Heat Sink
The CPU must be kept cool by using a CPU fan with heatsink.
Without sufficient air circulation across the CPU and heat sink,
the CPU will overheat damaging both the CPU and system board.
24
Note:
•Only use Intel
•An Intel
mechanism, heat sink, fan and installation guide. If the installation procedure in the installation guide differs from the one
in this section, please follow the installation guide in the
package.
•If you are installing a non-boxed processor, the heat sink, fan
and retention mechanism assembly may look different from
the one shown in this section but the procedure will more or
less be the same.
®
certified fan and heat sink.
®
boxed processor package contains a retention
Hardware Installation
1. The system board comes with the retention module base already installed.
2
Retention
hole
Retention
hole
Retention
module base
2. Position the fan / heat sink and retention mechanism assembly
on the CPU, then align and snap the retention legs’ hooks to
the retention holes at the 4 corners of the retention module
base.
Note:
You will not be able to snap the hooks into the holes if the
fan / heat sink and retention mechanism assembly did not
fit properly onto the CPU and retention module base.
Unsnapped
Retention
hole
Retention
hole
Fan / heat sink
and retention
mechanism
assembly
Snapped
25
2
Hardware Installation
3. The retention levers at this time remains unlocked as shown
in the illustration below.
Retention lever
Retention lever
4. Move the retention levers to their opposite directions then
push them down. This will secure the fan / heat sink and retention mechanism assembly to the retention module base.
Note:
You will not be able to push the lever down if the direction
is incorrect.
26
5. Connect the CPU fan’s cable connector to the CPU fan connector on the system board.
Hardware Installation
2.4 Jumper Settings
2.4.1 Jumper Settings for Clearing CMOS Data
2
JP5
312312
X
1-2 On: Normal
(default)
If you encounter the following,
a) CMOS data becomes corrupted.
b) You forgot the supervisor or user password.
c) You are unable to boot-up the computer system because the proc-
essor’s ratio/clock was incorrectly set in the BIOS.
you can reconfigure the system with the default values stored in
the ROM BIOS.
To load the default values stored in the ROM BIOS, please follow
the steps below.
1. Power-off the system.
2. Set JP5 pins 2 and 3 to On. Wait for a few seconds and set
JP5 back to its default setting, pins 1 and 2 On.
3. Now power-on the system.
If your reason for clearing the CMOS data is due to incorrect
setting of the processor’s ratio/clock in the BIOS, please proceed to step 4.
2-3 On:
Clear CMOS Data
27
2
Hardware Installation
4. After powering-on the system, press <Del> to enter the main
menu of the BIOS.
5. Select the Genie Bios Setting submenu and press <Enter>.
6. Set the “CPU Clock” or “CPU Clock Ratio” field to its default
setting or an appropriate bus clock or frequency ratio. Refer
to the Genie Bios Setting section in chapter 3 for more information.
7. Press <Esc> to return to the main menu of the BIOS setup
utility. Select “Save & Exit Setup” and press <Enter>.
8. Type <Y> and press <Enter>.
28
Hardware Installation
2.4.2 Jumper Settings for Selecting the PS/2 Keyboard/
Mouse Power
2
JP1
X
1-2 On: VCC
(default)
3
2
1
3
2
1
2-3 On: 5VSB
This jumper is used to select the power of the PS/2 keyboard
and/or PS/2 mouse ports. Selecting 5VSB will allow you to use
the Wake-On-PS/2 Keyboard/Mouse function.
BIOS Setting:
“Keyboard/Mouse Power On” in the Power Management Setup
submenu of the BIOS must be set accordingly. Refer to chapter 3
for more information.
Important:
The 5VSB power source of your power supply must support
≥
720mA.
29
2
Hardware Installation
2.4.3 Jumper Settings for Selecting the USB Power
3
2
1
2-3 On: 5VSB
USB 1-4
(JP1)
USB 5-8
(JP4)
1-2 On: VCC
X
3
2
1
(default)
312312
X
1-2 On: VCC
(default)
These jumpers are used to select the power of the USB ports.
Selecting 5VSB will allow you to use the Wake-On-USB Keyboard function.
BIOS Setting:
“USB KB Wake-Up From S3” in the Power Management Setup
submenu of the BIOS must be set to Enabled. Refer to chapter 3
for more information.
Important:
• If you are using the Wake-On-USB Keyboard function for 2
USB ports, the 5VSB power source of your power supply
must support ≥1.5A.
• If you are using the Wake-On-USB Keyboard function for 3
or more USB ports, the 5VSB power source of your power
supply must support ≥2A.
2-3 On: 5VSB
30
Loading...
+ 108 hidden pages
You need points to download manuals.
1 point = 1 manual.
You can buy points or you can get point for every manual you upload.